Dust collection device for electric power tool, electric power tool, and dust collection system

ABSTRACT

A dust collection device for an electric power tool includes a main body case that includes an air exhaust port and is attachable to a hammer drill, a dust box provided therein with a filter, and a tubular sliding portion that has a base end connected to a connection port provided on the main body case, that includes a suction port at its front end, and that is slidable in a front-rear direction, and includes therein a dust collection path formed to pass from the suction port through the filter to the air exhaust port. The connection port is provided on a side surface of the main body case, and connected to a flexible hose serving as a base end of the sliding portion, and a side surface of the dust box is provided with an inlet port communicating with the connection port.

This is a Continuation of U.S. patent application Ser. No. 15/608,012filed May 30, 2017, which claims the benefit of Japanese PatentApplication Numbers 2016-143597, 2016-143598, 2016-143599, 2016-143600filed on Jul. 21, 2016, the entirety of which is incorporated byreference.

BACKGROUND Technical Field

The present invention relates to a dust collection device for anelectric power tool to be attached to an electric power tool, such as anelectric drill or a hammer drill, to an electric power tool equippedwith the dust collection device for an electric power tool, and to adust collection system including the electric power tool and the dustcollection device for an electric power tool.

Related Art

An electric power tool, such as an electric drill or a hammer drill, isequipped with a dust collection device that collects dust produced frommaterial being processed during, for example, a drilling operation. Adevice disclosed in Japanese Patent Application Publication No.2011-212833 (JP 2011-212833 A) is known as such a dust collection devicefor an electric power tool. A dust collection attachment (dustcollection device) disclosed therein is configured such that an L-shapedcasing is equipped with a dust box on its front surface and a slidingportion facing forward is attached to its upper portion. The slidingportion, which has a suction port at the front end thereof, extends andcontracts in the front-rear direction. A dust collection fan and a motorare provided in a lower rear portion of the casing. Terminals areprovided between a front surface of the electric power tool, such as thehammer drill, and a rear surface of the casing. The terminals areelectrically coupled to each other in the state where the electric powertool and the casing are attached to each other so that power supply forthe motor is obtained from the hammer drill as soon as the dustcollection attachment is attached.

In the conventional dust collection attachment described above, an inletport of the dust box is open rearward on the upper side of a filter, andis connected to the sliding portion through a U-shaped duct. As thesliding portion projects rearward at an upper portion of the casing, theshape of the housing of the attachable electric power tool is limited.Further, the dust suctioned from the inlet port of the dust box isdirectly accumulated in an upper portion of the filter. Consequently,the filter is likely to be clogged.

Thus, an object of the present invention is to provide a dust collectiondevice for an electric power tool, an electric power tool, and a dustcollection system in which the sliding portion does not become anobstacle, and the filter is hardly clogged.

SUMMARY

To achieve the object described above, according to a first aspect ofthe present invention, a dust collection device for an electric powertool includes a main body case, a dust box in which a filter isprovided, and a tubular sliding portion. The main body case includes anair exhaust port and is attachable to an electric power tool. Thetubular sliding portion slidable in a front-rear direction has a baseend to which a connection port provided on the main body case isconnected, and further has a suction port at its front end. A dustcollection path is formed in the dust collection device to extend fromthe suction port through the filter to the air exhaust port. Theconnection port is provided on a side surface of the main body case, andconnected to the base end of the sliding portion. The side surface ofthe dust box is provided with an inlet port communicating with theconnection port.

The connection port is preferably disposed on an upper half side in acentral portion in the front-rear direction of the dust box.

The sliding portion is preferably disposed in a position offset in theright-left direction toward the side surface of the main body caseprovided with the connection port, and a hose serving as a base end ispreferably connected to the connection port.

A light-emitting member configured to emit light forward is preferablyprovided on a front surface of the main body case.

The light-emitting member is preferably disposed at a center in theright-left direction of the front surface of the main body case.

The hose is preferably connected to the connection port from a directionintersecting with the connection port.

The connection port preferably opens rearward, and the hose ispreferably connected to the connection port from behind.

The connection port is preferably provided with an L-shaped tubularelbow that opens rearward, and the hose is preferably connected to theconnection port from behind through the elbow.

A predetermined distance is preferably set between the inlet port andthe filter in the dust box, and a wall is preferably provided to a sidesurface of the filter, which faces the inlet port.

An O-ring is preferably disposed between the connection port and theinlet port.

An accommodating recess configured to accommodate the dust box ispreferably formed on the main body case so as to open forward, and thedust box is preferably attachable to and detachable from theaccommodating recess at the front.

A motor and a dust collection fan are preferably accommodated in themain body case, and the main body case is preferably provided thereinwith a partitioning portion partitioning a flow path of an air flowpassing through an accommodating chamber for the motor from wiring inthe main body case to inhibit contact between the air flow and thewiring.

The main body case is preferably formed by assembling a pair of rightand left half-split cases, and the partitioning portion is preferablyformed by butting ribs provided in an erect manner on respective innersurfaces of the half-split cases to each other.

To achieve the object described above, according to a second aspect ofthe present invention, an electric power tool includes the dustcollection device for an electric power tool according to the firstaspect attached to the electric power tool.

To achieve the object described above, according to a third aspect ofthe present invention, a dust collection system includes an electricpower tool and the dust collection device for an electric power toolaccording to the first aspect of the present invention. In the system,the electric power tool is provided, on an outer surface of a housing,with a guide groove for attaching the dust collection device. In thehousing, an electric power tool side terminal exposed through a plug-inport and a shutter member are disposed. The shutter member is configuredto close the plug-in port when the dust collection device for anelectric power tool is not attached. The dust collection device for anelectric power tool according to the first aspect of the presentinvention includes the main body case in which a rail portion and a dustcollection side terminal are provided. The rail portion is attached tothe housing by fitting with the guide groove. The dust collection sideterminal is electrically coupled to the electric power tool sideterminal by being inserted from the plug-in port when the dustcollection device is attached to the housing.

The shutter member is provided with a coupling portion configured toproject into the guide groove in a close position of the plug-in port.The rail portion is configured to engage with the coupling portion andto move the shutter member to an open position of the plug-in port whenthe rail portion of the main body case fits with the guide groove of thehousing.

According to the present invention, the base end of the sliding portionis provided on the side surface of the dust box, and the inlet port ofthe dust box is provided on the connection port side. Thus, the slidingportion does not become an obstacle by projecting rearward, and theshape of the housing of the electric power tool is less likely to belimited. Since the dust is suctioned from the side surface of the dustbox, the filter is less likely to be clogged.

When the connection port is disposed on the upper half side in thecentral portion in the front-rear direction of the dust box, the dust ishardly stuck even if the connection port is provided at the sidesurface.

When the sliding portion is disposed in the position offset toward theside surface on the connection port side, the sliding portion that hasmoved back does not interfere with the electric power tool, so that theslide stroke can be set to a large value.

When the hose is connected from the direction intersecting with theconnection port, the amount of projection can be reduced even if thesliding portion is offset in the right-left direction.

When the connection port opens rearward, and the hose is connected frombehind, the sliding portion that slides forward and rearward can beconnected to the connection port without difficulty.

When the predetermined distance is set between the inlet port and thefilter of the dust box, and the wall is provided to the side surface ofthe filter, the dust having entered through the inlet port does not comeinto direct contact with the side surface of the filter. Thus, the sidesurface of the filter facing the inlet port is prevented from beingclogged.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view from the front of a dust collection system.

FIG. 2 is a central vertical sectional view of the dust collectionsystem.

FIG. 3 is an A-A line enlarged sectional view of a main body housingalone in

FIG. 2.

FIG. 4 is a perspective view from a front upper side of a dustcollection device for an electric power tool.

FIG. 5 is a perspective view from a front lower side of the dustcollection device for an electric power tool.

FIG. 6 is a front view of the dust collection device for an electricpower tool.

FIG. 7 is a B-B line sectional view of FIG. 6.

FIG. 8 is a C-C line sectional view of FIG. 7.

FIG. 9 is a D-D line sectional view of FIG. 7.

FIG. 10 is an E-E line sectional view of FIG. 8.

FIG. 11 is a perspective view illustrating an attaching operation of adust box to a main body case.

FIG. 12 is a perspective view illustrating the attaching operation ofthe dust box to the main body case.

FIG. 13 is a side explanatory view illustrating an attaching operationof the dust collection device for an electric power tool to a hammerdrill.

FIG. 14 is a side explanatory view of the dust collection system inwhich a shielding plate is provided at a female connector of the hammerdrill (the dust collection device for an electric power tool is beingattached).

FIG. 15 is a side explanatory view of the dust collection system inwhich the shielding plate is provided at the female connector of thehammer drill (the dust collection device for an electric power tool hasbeen attached).

DETAILED DESCRIPTION

The following describes an embodiment of the present invention based onthe drawings. FIG. 1 is a perspective view from the front, FIG. 2 is acentral vertical sectional view, and FIG. 3 is an A-A line enlargedsectional view of a main body housing alone, each illustrating anexample of a dust collection system S in which a dust collection devicefor an electric power tool (hereinafter, simply called a “dustcollection device”) is attached to a hammer drill serving as an electricpower tool.

Description of Hammer Drill

A hammer drill 1 is configured such that a tapered cylindrical fronthousing 5 accommodating a tool holder 6 and a rotatable intermediateshaft 7 is provided so as to project forward at a front upper portion ofa main body housing 2. The main body housing 2 is formed by screwingtogether left and right half-split housings 2 a and 2 b. The fronthousing 5 accommodates a brushless motor 3, for example. A handle 8accommodating a switch 9 provided with a trigger 10 is disposed at arear upper portion of the main body housing 2. A battery pack 11 isslidingly attached to a rear lower portion of the main body housing 2from the rear and serves as a power source. An electric power tool sidecontroller 12 is accommodated above the battery pack 11.

The brushless motor 3 is accommodated in the main body housing 2 in atilted attitude with a rotating shaft 4 directed upward and obliquelyrearward. A first gear 13, which is provided at a distal end of therotating shaft 4, projects into the front housing 5 and meshes with asecond gear 14 provided on the intermediate shaft 7. A centrifugal fan15, which is fixed to the rotating shaft 4, rotates to suction externalair from electric power tool side air intake ports 16 formed in theright and left side surfaces of the main body housing 2 below thebrushless motor 3. The air is exhausted from electric power tool sideair exhaust ports 17 (FIG. 13) formed in the right and left sidesurfaces of the main body housing 2 outside the centrifugal fan 15,whereby an air flow is generated to cool the brushless motor 3.

The intermediate shaft 7 is provided with a rotatable boss sleeve 18, aclutch 19, and a third gear 20 in front of the second gear 14. The bosssleeve 18 is formed separately from the intermediate shaft 7. The clutch19 rotates in an integrated manner with the intermediate shaft 7 and isslidable forward and rearward. The third gear 20 is slidable forward andrearward to be disengaged from the intermediate shaft 7 in aforward-moved position and engaged with the intermediate shaft 7 torotate in an integrated manner therewith in a rearward-moved position.The clutch 19 moves forward and rearward in conjunction with the toolholder 6 via a locking plate 21 provided on the tool holder 6, andengages with the boss sleeve 18 in the rearward sliding position.

The front housing 5 holds therein an inner housing 22 that supports therear ends of the tool holder 6 and the intermediate shaft 7. The toolholder 6 is urged by a coil spring 23 provided between the tool holder 6and the inner housing 22 so as to project toward the forward-movedposition. A fourth gear 24 engaging with the third gear 20 of theintermediate shaft 7 is provided on the outer circumference of the toolholder 6. A piston cylinder 25 is arranged inside the tool holder 6 soas to be movable forward and rearward. The rear end of the pistoncylinder 25 is connected to an arm 26 provided on the boss sleeve 18. Astriker 28 is accommodated in the piston cylinder 25 so as to be capableof reciprocating forward and rearward with an air chamber 27 interposedtherebetween. An impact bolt 29 is accommodated in front of the striker28, and is abuttable on the rear end of a bit (not illustrated) insertedin the front end of the tool holder 6. An operation sleeve 30 forattaching and detaching the bit is provided at the front end of the toolholder 6. A side handle 31 is provided at the front end of the fronthousing 5 behind the operation sleeve 30.

A left side surface of the front housing 5 is provided with a modeswitching lever 32. The mode switching lever 32 is rotated to select adrill mode, a hammer drill mode, or a hammer mode. In the drill mode,the tool holder 6 is restricted from moving rearward to maintain theclutch 19 in the forward-moved position apart from the boss sleeve 18,and the third gear 20 is connected to the intermediate shaft 7. In thehammer drill mode, the tool holder 6 is not restricted from movingrearward so as to be movable to the rearward-moved position togetherwith the clutch 19, and the clutch 19 that has moved engages with theboss sleeve 18. In the hammer mode, the tool holder 6 is not restrictedfrom moving rearward so as to be movable to the rearward-moved positiontogether with the clutch 19, and the third gear 20 moves forward so asnot to transmit the rotation of the intermediate shaft 7. That is, inthe drill mode, only the tool holder 6 is rotated by drive of thebrushless motor 3. In the hammer drill mode, the boss sleeve 18, inaddition to the tool holder 6, is rotated and reciprocates the pistoncylinder 25, and the striker 28 strikes the impact bolt 29. In thehammer mode, only the boss sleeve 18 rotates, and the impact bolt 29 isstruck.

A front lower portion of the main body housing 2 in front of a batterypack 11 serves as a connecting portion 33 to which a dust collectiondevice 50 is connected. The connecting portion 33 includes a femaleconnector 34 that is provided with three female terminals 35 for powersupply and for communication arranged in the right-left direction andthat has an opening facing downward. A quadrangular plug-in port 36 isformed in an opening manner in a lower surface of the connecting portion33 below the female connector 34. As illustrated in FIG. 3, a supportpin 37 is connected in an integrated manner to an upper left sidesurface of the female connector 34. A tubular portion 38 coaxial withthe support pin 37 is formed on an upper right side surface of thefemale connector 34.

The support pin 37 is rotatably supported by a receiving recess 39formed on an inner surface of the half-split housing 2 a. A boss 40provided so as to project from the half-split housing 2 b is inserted inthe tubular portion 38. The female connector 34 is swingable about thesupport pin 37 and the boss 40 between a downward position where theopening is located directly above the plug-in port 36 and a tiltedposition where the opening is tilted so as to be separated rearward fromthe plug-in port 36 so that the female connector 34 abuts on a stopper41 in the connecting portion 33. A torsion spring 42 is wound about thesupport pin 37 with one end locked on the inner surface of thehalf-split housing 2 a and the other end locked at the female connector34, and urges the female connector 34 toward the tilted position.

The lower end of the female connector 34 is provided with a shuttermember 43 in an integrated manner. In a closing position, the shuttermember 43 is located directly above the plug-in port 36 to close theplug-in port 36 from inside when the female connector 34 is in thetilted position. In an open position, the shutter member 43 retreatsfrom directly above the plug-in port 36 when the female connector 34 isin the downward position. A pair of guide grooves 44, 44 are provided toextend in the upper-lower direction on the right and left side surfacesof the connecting portion 33 in front of the support pin 37. Athrough-hole 45 is formed in a rear-side inner surface of the left-sideguide groove 44. When the female connector 34 is in the tilted position(when the shutter member 43 is in the closing position), a couplingpiece 46, which is provided so as to radially protrude from the supportpin 37, projects from the through-hole 45. Furthermore, a locking recess47 open downward is formed behind the plug-in port 36, and an engagingpawl 48 is provided facing forward at the lower end on a rear-side innersurface of the locking recess 47. A leaf spring 49 having a U-shape inthe side view is accommodated in a manner winding around a screw bossfrom below behind the engaging pawl 48. The rear end of the leaf spring49 protrudes from a rear surface of the connecting portion 33. The leafspring 49 elastically presses a front surface of the battery pack 11having been attached so as to prevent it from rattling in the attachedstate.

Description of Dust Collection Device

As illustrated in FIGS. 4 to 7, the dust collection device 50 includes amain body case 51, a dust box 52, and a tubular sliding portion 53. Themain body case 51 formed by screwing together left and right half-splitcases 51 a and 51 b is attached to the hammer drill 1. The dust box 52is detachably attached to the main body case 51 and accumulates thedust. The tubular sliding portion 53, which is connected into the mainbody case 51, guides the dust suctioned from a processed position intothe dust box 52. First, the main body case 51 having a box shapeincludes a front plate portion 54, a rear plate portion 55, an upperplate portion 56, a lower plate portion 57, and right and left sideplate portions 58, 58. A lower portion of the main body case 51 has anaccommodating recess 59 that is formed so as to be recessed rearwardexcept the side plate portions 58, 58 to accommodate the dust box 52.The lower portion of the main body case 51 also includes a connectingprojection 60 that is formed so as to project rearward together with theside plate portions 58, 58 and that is connected to the connectingportion 33 of the hammer drill 1.

The accommodating recess 59 is a space surrounded by a partition plate61, a bottom plate 62, and the right and left side plate portions 58,58. The partition plate 61 bends rearward from the lower end of thefront plate portion 54 and partitions the interior of the main body case51 from the accommodating recess 59 to form an accommodating chamber 61a for a direct-current (DC) motor 88 on the upper side. The bottom plate62 bends downward from the rear end of the partition plate 61 andconnects to the lower plate portion 57. A recess 63 having a dustcollection side air intake port 64 at the center is formed in thepartition plate 61. A resin ring 65 and a resin upper ring 66 arecoaxially held in the recess 63 below the dust collection side airintake port 64. The upper ring 66 projecting below the lower surface ofthe partition plate 61 has a center hole to be covered with a mesh 67 ina tensioned state.

As illustrated in FIG. 8, the left side of the side plate portions 58 isprovided with a connection port 68 including a ring-like raised portion69 around the circumference on the outer surface side thereof. Alateral-side ring 70 made of a resin is attached from inside in afitting manner to the connection port 68. An undercut portion 71 whoselower end projects below the partition plate 61 is provided in arecessed manner in the center of the front plate portion 54 at the frontend of the partition plate 61. The lower plate portion 57 projectsforward over the bottom plate 62. A support shaft 72 using a screw bossis formed in the right-left direction at the front end of the lowerplate portion 57.

A fitting recess 73 fittable with the connecting portion 33 of thehammer drill 1 is formed between the right and left side plate portions58, 58 above the connecting projection 60. The upper surface of theconnecting projection 60, which serves as the bottom of the fittingrecess 73, is provided with a male connector 74 projecting upward. Themale connector 74 includes three male terminals 75 arranged in theright-left direction corresponding to the female terminals 35 of thehammer drill 1. The connecting projection 60 is provided therein with ahook plate 76. The hook plate 76 has a lower end that is supported by ashaft 77 extending in the right-left direction so as to be rotatableforward and rearward. The hook plate 76 is provided at the upper endwith a rearward hook portion 78 projecting into the fitting recess 73through a through-hole 79 formed in the rear plate portion 55. The hookplate 76 is swingable forward and rearward by an amount of thefront-rear width of the through-hole 79. The hook plate 76 is urgedtoward a rearward swing position in a way that a release button 80 ispressed rearward by a coil spring 82 provided in the connectingprojection 60. The release button 80 is positioned above the shaft 77and exposed from a window 81 provided in the rear plate portion 55. Acover portion 83 covers the through-hole 79. A leaf spring 84 curvingupward is held behind the hook plate 76.

Upward rail portions 85, 85 facing each other are formed on the innersurfaces of the right and left side plate portions 58, 58 in front ofthe male connector 74. The rail portions 85, 85 are provided inpositions that fit with the guide grooves 44, 44 in the state where theconnecting portion 33 is connected. The guide grooves 44, 44 areprovided on the side surfaces of the connecting portion 33 of the hammerdrill 1. Furthermore, a recessed surface portion 86 matching a lowersurface shape of the front housing 5 of the hammer drill 1 is formed onthe upper surface of the upper plate portion 56. The front end of therecessed surface portion 86 is provided with an abutting piece 87projecting upward. The an abutting piece 87 abuts on a front end surface5 a of the front housing 5 in the state where the front housing 5 isplaced on the recessed surface portion 86, the front end surface 5 aextending in the upper-lower direction.

As illustrated in FIG. 8, at the center in the right-left direction inthe main body case 51 above the partition plate 61, the DC motor 88 isaccommodated in a forward-facing attitude with an output shaft 89directed forward by a pair of upper and lower holding ribs 90, 90. Theupper and lower holding ribs 90, 90 are provided in a mutually facingmanner so as to project from the inner surfaces of the left and righthalf-split cases 51 a and 51 b via rubber pins 91, 91 held at the distalends of the holding ribs 90, 90. A dust collection fan 92 serving as acentrifugal fan is fixed to the output shaft 89. A plurality of dustcollection side air exhaust ports 93, 93 are formed in the right sideplate portion 58 outside the dust collection fan 92. A baffle plate 94is provided between the DC motor 88 and the dust collection fan 92, andguides air from the central side to the outer circumferential side. Acircular rib 95 is provided in a projecting manner in the front plateportion 54, and holds a bearing 96 for the output shaft 89.

A light-emitting diode (LED) 97 is provided at the center in theright-left direction of the front plate portion 54 above the circularrib 95. As illustrated in FIGS. 6 and 7, the LED 97 is mounted on asubstrate 98, and accommodated facing forward together with thesubstrate 98 in a holding tube 99 provided so as to project obliquelyupward from the front plate portion 54. A lens 100 is provided at thefront end of the holding tube 99 in front of the LED 97 so as to becapable of emitting light of the LED 97 obliquely in a front upperdirection.

Furthermore, a dust collection side controller 101 is verticallyaccommodated in the accommodating chamber 61 a so as to extend in theright-left direction behind the DC motor 88. Lead wires 75 a from themale terminals 75, lead wires 88 a, 88 a from positive and negativeterminals of the DC motor 88, and lead wires 98 a from the substrate 98are connected to the dust collection side controller 101. A squareU-shaped inner rib 102 is provided in an erect manner in the lefthalf-split case 51 a. The inner rib 102 is designed to rise from thepartition plate 61 at a predetermined distance inside the front plateportion 54, extend upward along the front plate portion 54 except at thecircular rib 95, then extend rearward along the upper plate portion 56at a predetermined distance inside the upper plate portion 56, extenddownward in front of the dust collection side controller 101 through therear end of the DC motor 88, and connect to the partition plate 61. Asillustrated in FIGS. 8 and 9, a semicircular cutout 103 is formed on theinner rib 102 in a position through which the DC motor 88 passes.

As illustrated in FIG. 13, a front vertical rib 104 is provided in anerect manner in a position in the right half-split case 51 b facing thefront side of the inner rib 102. The front vertical rib 104 is designedto rise from the partition plate 61 at a predetermined distance insidethe front plate portion 54, extend upward along the front plate portion54 except at the circular rib 95, and connect to the upper plate portion56. A rear vertical rib 105 is provided in an erect manner in a positionfacing the rear side of the inner rib 102. The rear vertical rib 105 isdesigned to rise from the partition plate 61, and connect to the upperplate portion 56 through the rear end of the DC motor 88. A semicircularcutout 106 is also formed on the rear vertical rib 105 in a positionthrough which the DC motor 88 passes.

The inner rib 102, the front vertical rib 104, and the rear vertical rib105 define an air intake chamber 107 that encloses the DC motor 88 andthe dust collection fan 92 in front of the dust collection sidecontroller 101 in the accommodating chamber 61 a. The DC motor 88 isfitted in the cutouts 103 and 106 provided on the inner rib 102 and therear vertical rib 105. In the fitting, only the rear end of the DC motor88 having terminals projects rearward of the air intake chamber 107, andthe lead wires 88 a, 88 a are directly connected to the dust collectionside controller 101. The lead wires 98 a of the substrate 98, which arerouted along the inner rib 102 outside the air intake chamber 107 in thehalf-split case 51 a, are connected to the dust collection sidecontroller 101. The lead wires 75 a of the male terminals 75, which arerouted upward through a space between the rear plate portion 55 and thebottom plate 62, are connected to the dust collection side controller101.

As illustrated in FIGS. 8 to 10, the sliding portion 53 includes anouter pipe 109, an inner pipe 110, a nozzle pipe 111, and a flexiblehose 112. The outer pipe 109 is held so as to be slidable in thefront-rear direction by a tubular holder 108 provided in a projectingmanner at a left upper portion of the main body case 51. The inner pipe110 is loosely inserted from front into the outer pipe 109 coaxiallytherewith. The nozzle pipe 111 is connected at a right angle to thefront end of the inner pipe 110. The flexible hose 112 is connectedbetween the inner pipe 110 and the main body case 51. The left sideplate portion 58 of the main body case 51 is provided with an L-shapedtubular elbow 113 below the holder 108. The elbow 113 opening rearwardcommunicates with the connection port 68. The flexible hose 112 isconnected to the inner pipe 110 from behind at the upper end thereof,and connected to the elbow 113 from behind through a joint 114 at thelower end thereof.

As illustrated in FIG. 7, a side surface of the outer pipe 109, whichfaces the main body case 51, is provided with a plurality of projections115 arranged at even intervals in parallel with the axial direction. Asillustrated in FIG. 8, the main body case 51 is provided therein with anL-shaped locking member 116 including an upward piece 117 and a sidewardpiece 119. The upward piece 117 has a locking tooth 118 lockable to anyof the projections 115 at the upper end thereof. The sideward piece 119projects outward below the holder 108 and is exposed from a lower window120 of the main body case 51. The locking member 116 is supported at aconnecting portion between the upward piece 117 and the sideward piece119 by a connection shaft 121 so as to be swingable rightward andleftward. The connection shaft 121 extends in the front-rear directionand is supported below the holder 108. The locking member 116 is urgedtoward a locking position where the locking tooth 118 is locked to theprojection 115 by a coil spring 122. The coil spring 122 is providedbetween the locking tooth 118 and a receiving portion 123 that ispositioned on the right side thereof and provided in the main body case51.

In the locking position, when the sideward piece 119 is operated upwardto be pushed in, the locking member 116 is rotated to separate thelocking tooth 118 from the projection 115. Accordingly, the outer pipe109 is allowed to slide in the front-rear direction within a rangebetween a position where a front stopper 124 abuts on the front end ofthe holder 108 and a position where a rear stopper 125 abuts on the rearend of the holder 108. The front stopper 124 is provided on the outercircumference at the front end of the outer pipe 109. The rear stopper125 is inserted to be attached to the rear end of the outer pipe 109.After the sideward piece 119 is released from the push-in state in anysliding position, the locking tooth 118 of the upward piece 117 that isreturned to the locking position is locked to any of the projections115, so that the sliding of the outer pipe 109 is locked.

A thick-walled portion 126 is formed on the front end side of the outerpipe 109. The thick-walled portion 126 has an inside diameter smallerthan that of the rear side of the outer pipe 109, the inside diameterbeing the width across flats of a fitting hole 127. The inner pipe 110passes through the thick-walled portion 126 so as to be slidable in thefront-rear direction while being restricted in rotation by having anouter shape fitting with the fitting hole 127. The inner pipe 110 isprovided with a ring-shaped stopper 128 on the outer circumference atthe rear end thereof. The inner pipe 110 is sheathed with a coil spring129 between the ring-shaped stopper 128 and the rear stopper 125provided at the outer pipe 109. As a result, the inner pipe 110 is urgedso as to project toward a forward-moved position where the stopper 128abuts on the thick-walled portion 126 of the outer pipe 109 in thenormal state.

The nozzle pipe 111 is provided with a tubular suction port 130 openingin the front-rear direction at the upper end thereof. The nozzle pipe111 is obliquely connected to the inner pipe 110 so that the suctionport 130 is located at the center in the right-left direction of themain body case 51 on the front upper side thereof. The suction port 130is provided with a ring-shaped rubber seal 131 at the front openingthereof, and with a rubber cap 132, which has a through-hole 133 for thebit, at the rear opening thereof. The flexible hose 112 is connected tothe rear end of the inner pipe 110 in the outer pipe 109, extends outrearward, then makes a U-turn to extend forward, and is connected frombehind to the rearward opening of the elbow 113 through the joint 114.The elbow 113 is attached in a fitting manner to the raised portion 69of the connection port 68 formed on one of the side plate portion 58 ofthe main body case 51. An O-ring 134 is interposed between the elbow 113and the lateral-side ring 70. As illustrated in FIG. 10, the connectionport 68 is located on the upper half side in the central portion in thefront-rear direction of the dust box 52.

The dust box 52 includes a quadrangular box-like main box 135 that opensat the upper surface and the rear surface, the upper surface beingclosed with a cap 136. A circular projection 137 having an outlet port138 at the center is formed on the upper surface of the cap 136.Thin-walled portions 139, 139, which are fitted with the right and leftside plate portions 58, 58 of the main body case 51, are formed on therear side on the right and left side surfaces of the main box 135. Theleft thin-walled portion 139 is pierced with an inlet port 140corresponding to the connection port 68. The rear surface of the mainbox 135 is closed with a lid 141 that is hinged at the lower endthereof. The upper end of the lid 141 is provided with a pair of rightand left locking pieces 142, 142 that are elastically locked to theupper surface of the cap 136. Thus, the lid 141 can be opened and closedby engagement and disengagement of the locking pieces 142, 142.

Furthermore, as illustrated in FIGS. 11 and 12, the upper surface of thecap 136 is provided with an operation piece 143 in front of the circularprojection 137. The operation piece 143 has a bifurcated rear end heldon the cap 136, and a front end serving as a finger-operated tab 144projecting forward above the cap 136. The upper surface of thefinger-operated tab 144 is provided with a locking projection 145 facingupward in a projecting manner. The locking projection 145 is locked frominside to the lower end of the undercut portion 71 of the dustcollection device 50 while the dust box 52 is accommodated in theaccommodating recess 59. A groove 146, which extends in the right-leftdirection on the rear side of the lower surface of the main box 135,fits with the support shaft 72 of the main body case 51 while the dustbox 52 is accommodated in the accommodating recess 59.

A filter 147 made of paper is provided in the main box 135. Asillustrated in FIGS. 8 and 9, the paper is folded in the right-leftdirection whose upper end is bonded to a quadrangular frame 148. Walls149, 149 are provided on the right and left sides of the frame 148 tointerpose the filter 147 between the right and left sides thereof. Boththe front and rear ends of each of the walls 149 are bent inward so asto surround the corners of the filter 147. The walls 149 and the frame148 of the filter 147 are locked from above to receiving step portions150 provided in the vicinity of the upper surface opening of the mainbox 135, so that the cap 136 is attached to the main box 135. As aresult, the filter 147 and the walls 149 are placed in a hanging statein the main box 135. In this state, the left wall 149 faces the inletport 140 at a location apart therefrom, and the right wall 149 and thefront and rear surfaces of the filter 147 are also located apart fromthe inner surface of the main box 135 and the inner surface of the lid141. Thus, a tubular space is continuously formed around the filter 147.The space below the filter 147 serves as a dust collection chamber D.

To attach the dust box 52 to the main body case 51, the dust box 52 isinserted from below the accommodating recess 59 of the main body case 51such that the dust box 52 is placed in a tilted attitude in which thelid 141 is located on the rear side and the hinge is located on theupper side, as illustrated in FIG. 11. The groove 146 is fitted with thesupport shaft 72, as illustrated in FIG. 12. Then, in that state, thedust box 52 is rotated about the support shaft 72 and pushed into theaccommodating recess 59 while the front side of the dust box 52 islifted up. As a result, the locking projection 145 provided at thefinger-operated tab 144 of the operation piece 143 is locked to thelower end of the undercut portion 71 of the main body case 51, and theattachment is completed. In this attached state, the circular projection137 provided on the upper surface of the cap 136 abuts on the upper ring66 of the partition plate 61 of the main body case 51, so that theoutlet port 138 communicates with the dust collection side air intakeport 64. At the same time, the inlet port 140 provided on the sidesurface abuts on the lateral-side ring 70 of the side plate portion 58of the main body case 51 to communicate with the connection port 68.

With this configuration, a dust collection path is formed in the dustcollection device 50 as follows. First, the air suctioned from thesuction port 130 of the nozzle pipe 111 passes through the flexible hose112 via the inner pipe 110, and reaches the inside of the dust box 52from the connection port 68 and the inlet port 140 through the elbow113. After passing through the filter 147, the air enters the air intakechamber 107 from the outlet port 138 and the dust collection side airintake port 64, and is exhausted from the dust collection side airexhaust ports 93.

When the dust box 52 is detached from the main case 51, in a sequenceopposite to that of the procedure described above. The finger-operatedtab 144 of the operation piece 143 is pushed down so that the lockingprojection 145 is unlocked from the lower end of the undercut portion 71of the main body case 51. Accordingly, in that state, it is onlynecessary to rotate the dust box 52 about the support shaft 72 bypushing down the front side of the dust box 52, to disengage the groove146 from the support shaft 72, and to take out the dust box 52 forward.

Attachment of Dust Collection Device to Hammer Drill

In the case of the hammer drill 1 and the dust collection device 50configured as described above. The dust collection device 50 equippedwith the dust box 52 is attached to the hammer drill 1. As illustratedin FIG. 13, the connecting portion 33 of the hammer drill 1 is placed ina state of abutting on the rear plate portion 55 in the fitting recess73 of the main body case 51. In this state, the main body case 51 isslid upward (or the hammer drill 1 is slid downward), and thus the railportions 85, 85 provided inside the side plate portions 58, 58 arerelatively inserted into the guide grooves 44, 44 provided on the rightand left sides of the connecting portion 33, as described above. As theleft rail portion 85 abuts on and pushes up the coupling piece 46, thefemale connector 34 is rotated via the support pin 37 to the downwardposition, and the shutter member 43 retreats from the plug-in port 36 tothe open position. Then, the male connector 74 of the main body case 51enters the female connector 34 through the opening thereof, and the maleterminals 75 are electrically coupled to the female terminals 35.

Along with the entrance of the male connector 74, the hook plate 76located behind also enters the locking recess 47, and locks the hookportion 78 to the engaging pawl 48 so that the connecting projection 60is connected to the connecting portion 33, as illustrated in FIG. 2. Atthis time, the leaf spring 84 of the connecting projection 60elastically presses the lower surface of the connecting portion 33 torestrain rattling in the upper-lower direction.

The front housing 5 fits with the recessed surface portion 86 on theupper surface of the main body case 51. The abutting piece 87 abuts onthe front surface of the front housing 5, thus restraining the rattlingin the front-rear direction. In this attached state, the sliding portion53 is located on the left side of the main body housing 2 of the hammerdrill 1, the suction port 130 of the nozzle pipe 111 is located in frontof the operation sleeve 30, and the attached bit is located coaxiallywith the center of the suction port 130.

The sliding position of the outer pipe 109 in the holder 108 is adjustedso that the distal end of the bit is located at the suction port 130that is urged in a projecting manner together with the inner pipe 110.Then, the suction port 130 is brought into contact with a surface to beprocessed. Subsequently, the trigger 10 of the hammer drill 1 is pushedto turn the switch 9 on, and the brushless motor 3 is driven to rotatethe rotating shaft 4. At this time, if the drill mode or the hammerdrill mode is selected by the mode switching lever 32, the bit rotatesto drill into the surface to be processed. As the drilling progresses,the bit penetrates the suction port 130, and the inner pipe 110relatively moves back from the outer pipe 109 together with the flexiblehose 112 against the urging of the coil spring 129. However, since theinner pipe 110 and the flexible hose 112 are held in the penetratingstate by the holder 108 disposed on the left side of the hammer drill 1,the inner pipe 110 and the flexible hose 112 that have moved back do notinterfere with the hammer drill 1, and can slide without any problem onthe left side of the hammer drill 1.

Illumination and Dust Collecting Operation

Along with the ON-operation of the trigger 10, power supply and drivecommands are issued to the dust collection side controller 101 that iselectrically coupled to the electric power tool side controller 12through the female terminals 35 and the male terminals 75. As a result,the dust collection side controller 101 supplies a current to thesubstrate 98 to light up the LED 97, and also supplies a current to theDC motor 88. The lighting up of LED 97 causes light to be emitted towardthe front of the suction port 130 through the lens 100, so that the partto be processed is illuminated. In this case, since the LED 97 isprovided at the center in the right-left direction of the main body case51, the illumination can be appropriately performed from a positiondirectly facing the part to be processed.

When the dust collection fan 92 is rotated together with the outputshaft 89 by the driving of the DC motor 88, a suction force is generatedin the suction port 130 of the dust collection device 50. Accordingly,the air carrying the dust produced during the processing is suctionedfrom the suction port 130. The suctioned air passes through the dustcollection path described above, that is, passes through the filter 147and the air intake chamber 107 and is exhausted from the dust collectionside air exhaust ports 93, whereby the dust is captured by the filter147 and accumulated in the dust collection chamber D of the main box135. At this time, the clearance is formed on the front, rear, right,and left sides of the filter 147 in the main box 135 as described above,so that the dust entering the filter 147 from any direction is lesslikely to cause clogging. Further, the air having passed through thefilter 147 flows into the air intake chamber 107, and cools the DC motor88. The lead wires 88 a of the DC motor 88 and the lead wires 98 a ofthe substrate 98 are positioned in an area partitioned by the inner rib102 and the front and rear vertical ribs 104 and 105, and wired outsidethe air intake chamber 107. As a result, the air flow does not come intocontact with the lead wires 88 a and 98 a.

When the trigger 10 is released from the push-in state to turn theswitch 9 off, the rotating shaft 4 of the brushless motor 3 stopsrotating, and a stop command is issued to the dust collection sidecontroller 101. The dust collection side controller 101, however,continues, using a delay circuit, to supply the power to the DC motor 88and the LED 97 for a predetermined time from when the stop command isreceived. As a result, the rotation the dust collection fan 92 allowscollection of the dust remaining in the inner pipe 110 and the flexiblehose 112 into the dust box 52. Further, afterglow of the LED 97 can beused for illumination for another operation, such as checking of thenext working position or cleanup.

Detachment of Dust Collection Device and Discharge of Dust

To detach the dust collection device 50 after the end of the operation,the release button 80 is pushed in to swing forward the hook plate 76 inorder to release the locking between the hook portion 78 and theengaging pawl 48. In that state, the dust collection device 50 is sliddownward, so that the male connector 74 moves away from the femaleconnector 34 to be pulled out of the plug-in port 36. At the same time,the rail portions 85, 85 are pulled out of the guide grooves 44, 44 torelease the pressing force to the coupling piece 46. Accordingly, thefemale connector 34 returns to the rearward tilted position, and theshutter member 43 closes the plug-in port 36. As a result, the dustcollection device 50 can be detached from the hammer drill 1.

To discharge the dust from the dust box 52, the dust box 52 is detachedfrom the front of the main body case 51 as described above. Then, thelocking pieces 142, 142 of the lid 141 are disengaged from the uppersurface of the cap 136, and the lid 141 is rotated to open the rearsurface of the main box 135. As a result, the dust accumulated in thedust collection chamber D of the main box 135 can be discharged from theopening on the rear side. At this time, since the lid 141 can be easilyopened and closed by engagement and disengagement of the locking pieces142, 142, the dust can be easily discarded. Cleaning and replacement ofthe filter 147 are enabled by detaching the cap 136 from the main box135.

Effects of the Invention Related to Light-Emitting Member

As described above, with the dust collection device 50 and the hammerdrill 1 of the embodiment described above, the sliding portion 53 isdisposed in a position offset leftward from the center in the right-leftdirection of the main body case 51, and the LED 97 emitting lightforward is provided on the front surface of the main body case 51. As aresult, the working position and the bit position can be appropriatelyirradiated before and during the operation regardless of the slidingportion 53. Particularly in this-embodiment, since the LED 97 isdisposed at the center in the right-left direction of the main body case51, even the single LED 97 can surely perform the irradiation bydirectly facing the working position.

Since the power of the LED 97 is supplied from the hammer drill 1, areasonable configuration is obtained in which the battery pack 11 of thehammer drill 1 is used as the power source of the LED 97. Furthermore,since the LED 97 is turned on and off in conjunction with the on/offoperation of the trigger 10 provided on the hammer drill 1, theillumination is automatically performed and stopped in accordance withthe use state of the hammer drill 1, whereby the operability isenhanced. Since the LED 97 is turned off after the predetermined timehas elapsed after the off operation of the trigger 10, the afterglow ofthe LED 97 can be used for the other operation immediately after the useof the hammer drill 1.

The position of the LED need not be exactly at the center in theright-left direction, and may be slightly offset right or left. Theposition in the upper-lower direction is also not limited to that of theembodiment described above, and can be modified as appropriate. The LEDmay be arranged such that its angle is adjustable in the upper-lowerdirection and the right-left direction. Furthermore, more than one LEDmay be provided, and, for example, a light emitter other than the LED ora laser pointer can be employed as the light-emitting member. Theafterglow function of the light-emitting member can be omitted such thatthe light-emitting member is turned off at the same time as the offoperation of the trigger.

Effects of the Invention Related to Connection of Sliding Portion

As described above, with the dust collection device 50 and the hammerdrill 1 of the embodiment described above, the connection port 68, whichis provided on the left side of the main body case 51, is connected tothe base end of the sliding portion 53. The inlet port 140 communicatingwith the connection port 68 is provided on the left side surface of thedust box 52. As a result, the sliding portion 53 does not become anobstacle by projecting rearward, and the shape of the main body housing2 of the hammer drill 1 is less likely to be limited. Since the dust issuctioned from the side surface of the dust box 52, the filter 147 ishardly clogged.

In particular in this case, since the connection port 68 is disposed onthe upper half side in the central portion in the front-rear directionof the dust box 52, the dust is hardly stuck although the connectionport 68 is provided at the side surface. Since the sliding portion 53 isdisposed in the position offset toward the left side surface providedwith the connection port 68 to which the flexible hose 112 serving as abase end is connected, the inner pipe 110 that has moved back does notinterfere with the hammer drill 1, so that the slide stroke can be setto a large value. Furthermore, since the flexible hose 112 is connectedto the connection port 68 from a direction intersecting with theconnection port 68, the amount of projection can be reduced although thesliding portion 53 is offset leftward.

Since the connection port 68 opening rearward through the elbow 113 isconnected to the flexible hose 112 from behind, the sliding portion 53that slides forward and rearward can be connected to the connection port68 without difficulty. Furthermore, since a predetermined distance isset between the inlet port 140 and the filter 147 in the dust box 52,and the wall 149 is provided to the side surface of the filter 147facing the inlet port 140. Accordingly, the dust having entered throughthe inlet port 140 does not come into direct contact with the sidesurface of the filter 147. The side surface of the filter 147 facing theinlet port 140 is prevented from being clogged.

The right-left position of the sliding portion may be reversed from thatof the embodiment described above. The positions of the holder, theconnection port, and the inlet port of the dust box may be changed tothe right side surface side, accordingly. The position of the connectionport in the main body case can also be moved in the upper-lowerdirection and/or the front-rear direction. The flexible hose is notlimited to being connected from behind. The elbow may open obliquelyrearward and downward, or downward, and the flexible hose may beconnected obliquely from behind and below, or from below.

Effects of the Invention Related to Protection of Lead Wires

As described above, with the dust collection device 50 and the hammerdrill 1 of the embodiment described above, the main body case 51 isprovided therein with the partitioning portions (the inner rib 102, thefront vertical rib 104, and the rear vertical rib 105). The partitioningportions inhibit the contact between the air flow and the wiring bypartitioning the flow path of the air flow passing through theaccommodating chamber 61 a for the DC motor 88 from the wiring (the leadwires 75 a, 88 a, and 98 a) in the main body case 51. As a result, arisk of damage to the wiring caused by the air flow cooling the DC motor88 can be reduced. In particular in this case, since the DC motor 88 isaccommodated in the main body case 51 in the attitude in which theoutput shaft 89 extends in the front-rear direction, the flow path ofthe air flow can be easily partitioned from the wiring in theaccommodating chamber 61 a.

Since the dust box 52 is disposed below the main body case 51, and theDC motor 88 is accommodated above the dust box 52, the main body case 51has a compact shape with reduced front-rear and upper-lower dimensions.Furthermore, the main body case 51 is formed by assembling the pair ofleft and right half-split cases 51 a and 51 b. The partitioning portionsare formed by butting the inner rib 102 to the front and rear ribs 104and 105, the inner rib 102 and the front and rear ribs 104 and 105 beingprovided in an erect manner on the inner surfaces of the half-splitcases 51 a and 51 b, respectively. As a result, a reasonableconfiguration is obtained in which the partitioning portions are formedas the half-split cases 51 a and 51 b are assembled. Since the dustcollection side controller 101 is disposed behind the accommodatingchamber 61 a for the DC motor 88 in the main body case 51, the leadwires 88 a between the dust collection side controller 101 and the DCmotor 88 can be wired at the shortest distance.

The inner rib and the front and rear vertical ribs may be provided inthe half-split cases with the right-left relation reversed. Instead ofusing the front and rear vertical ribs on one of the half-split cases,the inner rib can be provided in each of the right and left half-splitcases to partition the air intake chamber. Furthermore, the DC motor isnot limited to being accommodated above the dust box, but may beaccommodated behind the dust box as long as the air flow can bepartitioned from the wiring, and may be accommodated in the upper-lowerdirection instead of in the front-rear direction.

Effects of the Invention Related to Dust Collection System

As described above, with the dust collection system S of the embodimentdescribed above, the coupling piece 46, which is integrally provided onthe shutter member 43 in the hammer drill 1, projects into the guidegroove 44 in the close position of the plug-in port 36. When the railportion 85 of the main body case 51 fits with the guide groove 44 of themain body housing 2, the rail portion 85 moves the shutter member 43 tothe open position of the plug-in port 36 by engaging with the couplingpiece 46 of the shutter member 43. Consequently, a reasonable structureis obtained in which the rail portion 85 for connection of the dustcollection device 50 is used also for moving the shutter member 43. As aresult, the connection and the electrical coupling between the hammerdrill 1 and the dust collection device 50 can be achieved with a simplestructure with a small number of components.

Particularly in this case, the guide groove 44 and the rail portion 85are formed to extend in the upper-lower direction, so that the dustcollection device 50 can be easily attached to and detached from thehammer drill 1. Since the shutter member 43 is rotatable between theopen position and the close position of the plug-in port 36 androtatably urged toward the close position by the torsion spring 42, thespace for the shutter member 43 can be saved. Furthermore, when the mainbody case 51 is attached from below to the main body housing 2, theengaging pawl 48 provided on lower surface of the main body housing 2and the hook plate 76 provided on the upper surface of the main bodycase 51 engage with each other in the attached state. Due to theengagement of the engaging pawl 48 and the hook plate 76, the main bodyhousing 2 and the main body case 51 can be reliably connected togethervia the upper and lower mating surfaces thereof.

Since the hook plate 76 can be operated to a position for release fromthe engaging pawl 48 by one release button 80 provided at the main bodycase 51, the dust collection device 50 can be easily detached. The frontend surface 5 a and the abutting piece 87 are provided on the outersurface of the front housing 5 and the upper surface of the main bodycase 51, respectively. The front end surface 5 a and the abutting piece87 restricts the movement in the front-rear direction in the attachedstate of the main body case 51 by abutting each other, and thus the dustcollection device 50 can be attached so as to be free from the rattling.

In the embodiment described above, the coupling piece is provided at thesupport pin that is a separate body from the female connector providedwith the shutter member. The coupling piece may, however, be provided inan integrated manner with the shutter member. The present invention isnot limited to the case where the female connector and the shuttermember are provided in an integrated manner. The female connector andthe shutter member may be configured such that the female connector isfixed in the downward position, and only the shutter member as aseparate body is movable relative to the plug-in port. The shuttermember may move linearly instead of rotationally.

Furthermore, the guide groove and the rail portion may be formed toextend in the front-rear direction instead of in the upper-lowerdirection, so that the dust collection device may be attached from thefront of the hammer drill. In this case, the front surface of the mainbody housing and the rear surface of the main body case serve as matingsurfaces provided with engaging portions.

As illustrated in FIGS. 14 and 15, a shielding plate 34 a projectingrearward in the downward position is connected in an integrated mannerwith a rear portion of the upper end of the female connector 34. In thisstate, the shielding plate 34 a may project rearward between theelectric power tool side air intake ports 16 located above and thestopper 41 when the dust collection device 50 is attached. When theshielding plate 34 a described above is provided, the upper side of theconnecting portion between the female connector 34 and the maleconnector 74 is covered by the shielding plate 34 a. As a result,foreign matter, such as water, that has entered from the electric powertool side air intake ports 16, 16 can be prevented from entering theconnecting portion.

In any aspect of the present invention, the configuration of the hammerdrill may be such that the motor is laterally mounted, and/or is analternating-current (AC) motor, instead of the DC motor, using acommercial power supply as the power source. The present invention maybe applied not only to the hammer drill, but also to other electricpower tools, such as electric drills, as long as the dust collectiondevice is attachable thereto.

It is explicitly stated that all features disclosed in the descriptionand/or the claims are intended to be disclosed separately andindependently from each other for the purpose of original disclosure aswell as for the purpose of restricting the claimed invention independentof the composition of the features in the embodiments and/or the claims.It is explicitly stated that all value ranges or indications of groupsof entities disclose every possible intermediate value or intermediateentity for the purpose of original disclosure as well as for the purposeof restricting the claimed invention, in particular as limits of valueranges.

What is claimed is:
 1. A dust collection device for an electric powertool comprising: a main body case that (1) includes an air exhaust port,(2) is attachable to the electric power tool, (3) houses a motor, a dustcollection fan and wiring for the motor, (4) has a connection port, (5)includes a motor chamber, and (6) has an internal partition; a dust boxthat houses a filter; and a tubular sliding portion that (1) has a baseend and a front end, (2) is slidable in a front-rear direction, and (3)includes a suction port at the front end; wherein: the base end isconnected to the connection port; the motor is housed in the motorchamber; a dust collection route is internally formed in the dustcollection device such that the dust collection route starts at thesuction port, passes through the filter, passes through the motorchamber after passing through the filter, and ends at the air exhaustport; and the internal partition is positioned to inhibit air in thedust collection route from contacting the wiring.
 2. The dust collectiondevice for an electric power tool according to claim 1, wherein themotor includes an output shaft and the motor is positioned in the mainbody case such that the output shaft extends in the front-reardirection.
 3. The dust collection device for an electric power toolaccording to claim 1, wherein: the dust box is below the main body case;and the motor is above the dust box.
 4. The dust collection device foran electric power tool according to claim 2, wherein: the dust box isbelow the main body case; and the motor is above the dust box.
 5. Thedust collection device for an electric power tool according to claim 1,wherein: the main body case is comprised of right and left half-splitcases having ribs inside the cases; and the internal partition is formedby butting the ribs.
 6. The dust collection device for an electric powertool according to claim 2, wherein: the main body case is comprised ofright and left half-split cases having ribs inside the cases; and theinternal partition is formed by butting the ribs.
 7. The dust collectiondevice for an electric power tool according to claim 4, wherein: themain body case is comprised of right and left half-split cases havingribs inside the cases; and the internal partition is formed by buttingthe ribs.
 8. The dust collection device for an electric power toolaccording to claim 1, further comprising a controller that (1) controlsthe motor and (2) is located behind the motor.
 9. The dust collectiondevice for an electric power tool according to claim 2, furthercomprising a controller that (1) controls the motor and (2) is locatedbehind the motor.
 10. An electric power tool comprising the dustcollection device for an electric power tool according to claim 1.